Use of top gas in direct reduction processes

What is claimed is: 1. An iron oxide-reducing system, the system comprising: a first module for reducing iron oxide by direct reduction process, the first module comprising a first reducing gas inlet, a first reducing reactor, and a top gas outlet; wherein during operation the first module produces metallic iron and expels a top gas stream via the top gas outlet; an export gas storage module which is configured to receive top gas from the first module; and a second module for reducing iron oxide by direct reduction process, the second module comprising a second reducing gas inlet, a second reducing reactor, a reducing gas heater, and a steam boiler, wherein the second module, during operation, produces metallic iron; wherein the second iron reducing module is configured to receive top gas from the export gas storage module; wherein the second module comprises a process gas heating unit and thermal equipment; and. 2. The system of claim 1 , wherein the top gas stream exiting the top gas scrubber is divided into multiple top gas flow paths. 3. The system of claim 2 , wherein one of the multiple top gas flow paths is an export top gas stream, wherein the export top gas stream is directed to the second module. 4. The system of claim 3 , wherein the export top gas stream comprises a first top gas flow control valve; and wherein the first top gas flow control valve operates in parallel with a second top gas flow control valve operating on a top gas flow path conveyed to a first module flare stack. 5. The system of claim 3 , wherein the export top gas stream is conveyed to a top gas holding module. 6. An iron oxide-reducing system comprising the steps of: (a) a first module for reducing iron oxide by direct reduction process, the first module comprising a first reducing gas inlet, a first reducing reactor, and a top gas outlet; wherein during operation the first module produces metallic iron and expels a top gas stream via the top gas outlet; and (b) a second module for reducing iron oxide by direct reduction process, the second module comprising a second reducing gas inlet, a second reducing reactor, a reducing gas heater, and a steam boiler, wherein the second module, during operation, produces metallic iron; wherein the second module comprises a process gas heating unit and thermal equipment; and wherein the second module is configured to receive the top gas stream from the first module as a heat-generation gas for thermal equipment of the second module; and wherein the thermal equipment of the second module comprises a reducing gas heater, wherein the burners of thermal equipment are double-tip burners; and wherein the double-tip burners are configured to use two fuel sources in parallel. 7. The system of claim 6 , wherein the two fuel sources are the top gas from the first module and an external source of a second combustible gas. 8. An iron oxide-reducing system, the system comprising: (a) a first module for reducing iron oxide by direct reduction process, the first module comprising a first reducing gas inlet, a first reducing reactor, and a top gas outlet; wherein the first module, during operation, produces metallic iron and expels a top gas stream via the top gas outlet; (b) a second module for reducing iron oxide by direct reduction process, the second module comprising a second reducing gas inlet, a second reducing reactor, a process gas heating unit, thermal equipment and a steam boiler; and (c) a top gas holding module for storing the top gas from the first module, the top gas holding module comprising a gas holder tank receiving the top gas flow path, a top gas flow path from the gas holder tank, a compressor operating on the top gas flow path from the gas holder tank, and a top gas flow from the top gas holder tank to a flare stack; wherein the top gas holding module is configured to receive the top gas stream from the first module; and wherein the second module is configured to receive the top gas stream from the gas holding module as a heat-generation gas for the thermal equipment; and wherein the thermal equipment of the second module comprises a reducing gas heater, wherein the burners of thermal equipment are double-tip burners; and wherein the double-tip burners are configured to use two fuel sources in parallel. 9. The system of claim 8 , wherein the top gas outlet of the first module conveys the top gas to a top gas scrubber. 10. The system of claim 9 , wherein the top gas stream exiting the top gas scrubber is divided into multiple top gas flow paths. 11. The system of claim 10 , wherein one of the multiple top gas flow paths is an export top gas stream, wherein the export top gas stream is directed to the top gas holding module. 12. The system of claim 8 , wherein the two fuel sources are the top gas from the first module and an external source of a second combustible gas. 13. A process for reducing iron oxide, the process consisting of the steps of: (a) producing a top gas with a first module for reducing iron oxide by direct reduction process, the first module comprising a first reducing gas inlet, a first reducing reactor, and a top gas outlet; wherein the first module, during operation, produces metallic iron and expels the top gas via the top gas outlet; (b) conveying the top gas from the first module for reducing iron oxide; (c) receiving the top gas into a second module for reducing iron oxide by direct reduction process, the second module comprising a second reducing gas inlet, a second reducing reactor, a reducing gas heater, and a steam boiler; wherein the second module, during operation, produces metallic iron; and wherein the second module comprises a process gas heating unit and thermal equipment; (d) combusting the top gas to generate heat in the thermal equipment of the second module; wherein the thermal equipment of the second module comprises a reducing gas heater. 14. The process of claim 13 , wherein the top gas stream is conveyed to a top gas holder tank. 15. The process of claim 14 , wherein the top gas streams from a single instance of the first module is conveyed to a top gas holding module.